JP2017189005A - Power storage device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power storage device combined with a power generation system having a power line provided with a backflow prevention diode and a DC power generation device and a load device connected via the power line, that is, a power storage device capable of effectively using generated power at the time of resuming power generation of the DC power generation device of the power generation system.SOLUTION: A power storage device 10 comprises: a DC/DC converter 12; and a control part 14 for executing constant current control for controlling the DC/DC converter 12 such that an output current value of the DC/DC converter 12 matches a current command value or constant voltage control for controlling the DC/DC converter 12 such that a voltage value of a power line 35 matches a voltage command value, that is, a control part 14 having a function for managing a set value as the voltage command value and a function for performing specification processing for specifying an index value indicating the scale of generated power of a PV 30 for starting the constant current control when the index value becomes a specified value or more during the execution of the constant voltage control.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a power storage device.

  In recent years, a photovoltaic power generation system that combines a solar cell and a power conditioner has been actively connected to a commercial power system and a load (a group of devices that use power).

  A general power conditioner (hereinafter also referred to as PCS) for a solar power generation system has a function of performing maximum power point tracking control. Therefore, in a general photovoltaic power generation system, it is possible to extract the maximum power from the solar cell. However, in a photovoltaic power generation system that sells electricity, it is impossible to use all the power generated by the solar cell due to output suppression, that is, less power than the maximum power that the solar cell can output is taken out from the solar cell. There is. In addition, even in a solar power generation system that does not sell power, when the power consumption of the load is small, it is not possible to use all the power generated by the solar battery.

  Therefore, it has been proposed to add a storage battery to an existing solar power generation system and store surplus power in the storage battery (see, for example, Patent Document 1). Since a DC voltage is required for charging the storage battery, when a storage battery is added to the photovoltaic power generation system, a solar battery (PV) 30 is typically used, as schematically shown in FIG. The storage battery 20 is connected to the power line 35 connecting the PCS 32 and the PCS 32 via the bidirectional DC / DC converter 40.

JP2013-138530A

As a control procedure by the control device (not shown) of the bidirectional DC / DC converter 40 (hereinafter also referred to as the converter 40) in the system shown in FIG.
During the period when the PV 30 is generating power, a certain amount of power is input to the PCS 32 (that is, a certain amount of power in the generated power of the PV 30 is supplied to the PCS 32, and the storage battery 20 is charged with the remaining power. The converter 40 is controlled.
During the period when the PV 30 is not generating power, the converter 40 is controlled so that the input voltage of the PCS 32 becomes a predetermined voltage.

  That is, it is conceivable that constant current control is performed on the converter 40 during a period when the PV 30 is generating power, and constant voltage control is performed during the period when the PV 30 is not generating power. If the converter 40 is controlled in such a manner, the storage battery 20 is charged with surplus power during the period when the PV 30 is generating power (such as when the generated power of the PV 30 is larger than the power consumption of the load 44), and the PV 20 is generating power. During periods of no power, the power from the storage battery 20 can be supplied to the load 44 alone or with the power from the grid 42. Therefore, according to the above control, effective use of the power generation capacity of the PV 30 can be achieved.

However, in the above control, even if the _PV 30 resumes power generation during the constant voltage control, as long as the output voltage V _PV of the _{PV 30} is lower than the voltage controlled by the constant voltage control (“predetermined voltage”), the PV 30 The generated power cannot be used.

Specifically, as shown in FIG. 1, a backflow prevention diode 36 for preventing backflow to the PV 30 is usually provided in the middle of the power line 35 connecting the PV 30 and the PCS 32. Therefore, even when the _PV 30 resumes power generation, power is not supplied from the PV 30 to the PCS 32 while the output voltage V _PV of the _{PV 30} is lower than the voltage V _PL of the power line 35. In the constant voltage control, the voltage V _PL is controlled to a predetermined voltage. Therefore, even if the _PV 30 resumes power generation during the constant voltage control, while the output voltage V _{PV of the PV 30} is lower than the predetermined voltage, the _PV 30 The generated power cannot be used.

  The above problem that the generated power at the time of resuming the power generation cannot be effectively used is that the system for adding the power storage device includes a DC power generator, a load device that converts or consumes the generated power of the DC power generator, the DC power generator, and the load device. And a power line connected to each other, and a diode that is provided in the power line and prevents a current from flowing in a direction opposite to the direction in which the current supplied by the DC power generator flows. is there.

  Accordingly, an object of the present invention is to provide a DC power generation device, a load device that converts or consumes the generated power of the DC power generation device, a power line that connects the DC power generation device and the load device, and the power line. A power storage device combined with a power generation system having a diode that prevents a current from flowing in a direction opposite to the direction in which the current supplied by the device flows, and effectively uses the generated power when the DC power generation device resumes power generation An object of the present invention is to provide a power storage device that can be used.

  In order to solve the above-described problems, the present invention provides a DC power generator, a load device that converts or consumes the generated power of the DC power generator, a power line that connects the DC power generator and the load device, A power storage device that is provided in a power line and that is combined with a power generation system that includes a diode that prevents a current from flowing in a direction opposite to a direction in which a current supplied by the DC power generation device flows, the load device, the diode, And the bidirectional DC / DC converter connected to the storage battery, and the bidirectional DC / DC so that the input / output current value of the bidirectional DC / DC converter matches the current command value. Constant current control for controlling the converter and constant voltage control for controlling the bidirectional DC / DC converter so that the voltage value of the power line matches the voltage command value. And a control unit that changes the control to be executed based on the operation status of the DC power generation device, and the control unit uses the set value as the voltage command value in the constant voltage control. A function to perform management, and a function to perform a specific process of specifying an index value indicating the magnitude of the generated power of the DC power generation device, and the index value becomes a specified value or more during execution of the constant voltage control. The constant current control is started.

  That is, the voltage command value at the time of constant voltage control may be made small so that the generated power at the time of resuming the power generation of a DC power generator such as a solar cell or a DC wind power generator can be used. However, load devices (power conditioners and DC power consumption devices) have an operable input voltage range. Therefore, the voltage command value cannot be set to a value smaller than the lower limit value of the input voltage range in which the load device can operate. In addition, since the input voltage range in which the load device can operate differs depending on the load device, the voltage command value cannot be set to a fixed value. However, the control unit of the power storage device of the present invention determines the set value. It has a function of managing as a voltage command value in voltage control. Therefore, if a value in the vicinity of the lower limit value of the input voltage range in which the load device in the combined power generation system can operate is set as a voltage command value in the power storage device (control unit thereof) of the present invention, the operation of the load device can be performed. Without being hindered, it is possible to effectively use the generated power when the DC power generator resumes power generation.

The specifying process performed by the control unit of the power storage device of the present invention may be a process for specifying an index value indicating the magnitude of the generated power of the DC power generator. For example, the process of measuring the magnitude of the current flowing through the portion of the power line that is closer to the DC power generator than the connection point of the bidirectional DC / DC converter, and specifying the measurement result as the index value, Measure the magnitude of the current flowing through the portion of the line closer to the DC power generator than the connection point of the bidirectional DC / DC converter and the voltage value of the power line, and calculate the power value calculated from the measurement result as the index A process specified as a value may be adopted as the specified process.

  In the power storage device of the present invention, the load device is a power conditioner that converts electric power generated by the DC power generation device, and the control unit has a voltage range within which the power conditioner is operable from the power conditioner. Information that can specify the lower limit value may be acquired, and a value determined based on the acquired information may be realized as a device that manages the voltage command value.

  According to the present invention, a DC power generator, a load device that converts or consumes the generated power of the DC power generator, a power line that connects the DC power generator and the load device, and the power line are provided. A power storage device that is combined with a power generation system having a diode that prevents a current from flowing in a direction opposite to the direction in which the supplied current flows, and that can effectively use the generated power when the DC power generation device resumes power generation An apparatus can be provided.

FIG. 1 is an explanatory diagram of a basic configuration of a system in which a storage battery is added to an existing photovoltaic power generation system. FIG. 2 is an explanatory diagram of the configuration and usage of the power storage device according to the embodiment of the present invention. FIG. 3 is a flowchart of a storage battery control process executed by the control unit of the power storage device according to the embodiment.

  Embodiments of the present invention will be described below with reference to the drawings.

  In FIG. 2, the structure and usage pattern of the electrical storage apparatus 10 which concerns on one Embodiment of this invention are shown. First, the outline of the power storage device 10 according to the present embodiment will be described with reference to FIG.

  The power storage device 10 according to this embodiment is a device that is added together with the storage battery 20 to an existing photovoltaic power generation system. The solar power generation system in which the power storage device 10 is combined is a general solar system in which a solar cell (PV) 30 and a power conditioner (PCS) 32 are connected by a power line 35 and the PCS 32 is connected to a system 42 and a load 44. It is a photovoltaic system.

  The power storage device 10 is a device for imparting a power storage function to the solar power generation system. As illustrated, the power storage device 10 includes a DC / DC converter 12 and a control unit 14.

  The DC / DC converter 12 is a bidirectional DC / DC converter connected to the power line 35 and the storage battery 20. The DC / DC converter 12 is connected to the power line 35 by the power line 15. Note that the DC / DC converter 12 only needs to be capable of charging the storage battery 20 with power from the power line 35 side and supplying power from the storage battery 20 to the power line 35 (PCS 32). As the DC / DC converter 12, for example, a converter having a circuit configuration in which a transformer is disposed between two full bridge circuits can be used.

The control unit 14 is a unit that controls the converter 12 so that the charge / discharge power of the storage battery 20 (charge power to the storage battery 20, discharge power from the storage battery 20) becomes a desired value. The control unit 14 includes a microcontroller, an interface circuit to each unit, and the like.

  As shown in FIG. 2, a signal from the voltage sensor 16, a signal from the current sensor 17, and a signal from the current sensor 18 are input to the control unit 14. The voltage sensor 16 is a sensor for measuring the voltage of the power line 35 (= the voltage of the power line 15). Although the voltage sensor 16 is shown in the power storage device 10 in FIG. 2, the voltage sensor 16 may be provided outside the power storage device 10 as long as the voltage of the power line 35 can be measured. The current sensor 17 is a sensor for detecting the magnitude of the current flowing through the portion of the power line 35 that is closer to the PV 30 than the connecting portion of the power line 15. The current sensor 18 is a sensor for detecting the magnitude of the current flowing through the power line 15.

  Moreover, the management apparatus 25 is connected to the control part 14 via the communication line. The management device 25 is a kind of computer that functions as a user interface for performing various settings in the power storage device 10 (control unit 14). At the start of operation of the power storage device 10, some information including a voltage setting value (details will be described later) is set in the power storage device 10 (control unit 14) using the management device 25.

  Hereinafter, functions of the power storage device 10 will be described.

  The control unit 14 of the power storage device 10 is configured (programmed) to start the storage battery control process of the procedure shown in FIG. 3 when the power of the power storage device 10 is turned on while the PV 30 is generating power. Yes.

  That is, when the power storage device 10 is turned on, the control unit 14 that has started this storage battery control process first starts the constant current control process (step S101).

  The constant current control process performed by the control unit 14 is a process of performing feedback control (PID control or the like) on the DC / DC converter 12 so that the output current value of the DC / DC converter 12 matches the current command value. The current command value in this constant current control process is input / output by the DC / DC converter 12 determined from the average generated power of the PV 30 during the power generation time period, the average power consumption of the load 44 during the same time period, and the like. This is the current value to be used. Whether the current command value is a preset fixed value or a value obtained by dividing the preset power command value by the voltage value detected by the voltage sensor 16, the current command value is changed according to the current time or the like. It may be a value.

  The control unit 14 that has finished the process of step S101 is in a state of repeating the processes of steps S102 and S103 while executing the constant current control process.

  The generated power index value specifying process performed by the control unit 14 in step S102 is a result of multiplying the outputs of the voltage sensor 16 and the current sensor 17 (that is, the magnitude of power supplied from the PV 30) as a generated power index value. This is the process to identify. However, the generated power index value specifying process is a process for specifying a value indicating the magnitude of the generated power of PV 30 (in other words, a value correlated with the magnitude of the generated power of PV 30) as the generated power index value. good. Therefore, the generated power index value specifying process may be a process of specifying the output of the current sensor 17 as a generated power index value. Further, the generated power index value specifying process calculates (estimates) the magnitude of the current flowing from the PV 30 from the output of the current sensor 17 and the control content performed on the DC / DC converter 12, and the calculation result It may be a process of specifying itself or a multiplication result of the calculation result and the output of the current sensor 17 as a generated power index value.

In step S103, the control unit 14 that has finished the generated power index value specifying process determines whether the generated power index value specified in the generated power index value specifying process (the index value in the figure) is smaller than the first specified value. Judge whether or not. Here, the first specified value is a value set in advance as a lower limit value of the generated power index value range in which the constant current control process is preferable to the constant voltage control process described later.

  The control unit 14 repeats the processes of steps S102 and S103 until the generated power index value becomes smaller than the first specified value. When the generated power index value becomes smaller than the first specified value (step S103; YES), the control unit 14 stops the constant current control process and starts the constant voltage control process (step S104). .

  The constant voltage control process performed by the control unit 14 is a process for feedback controlling the DC / DC converter 12 so that the voltage value detected by the voltage sensor 16 matches the voltage command value. The voltage command value is a value set in the power storage device 10 (the control unit 14) when the operation of the power storage device 10 is started using the management device 25. A user (administrator, installer, etc.) of the power storage device 10 checks the operable voltage range of the PCS 32 at the start of operation of the power storage device 10, and sets a voltage that is larger by several volts than the lower limit value of the operable voltage range. Set as command value. It should be noted that a value larger than the lower limit value of the operable voltage range is set as the voltage command value because the voltage value of the power line 35 detected by the voltage sensor 16 and the voltage of the PCS 32 due to individual differences and measurement errors of the sensor. This is because there may be a difference between the voltage value of the power line 35 detected by the sensor.

  The control unit 14 that has finished the process of step S104 specifies the generated power index value specifying process having the above-described content while performing the constant voltage control process so that the generated power index value (index value in the figure) equal to or greater than the second specified value is specified. (S105 and S106). The second specified value (corresponding to the “specified value” of the present invention) is set in advance as an upper limit value of the generated power index value range in which the constant voltage control process is preferable to the constant current control process. It is the above value. The second specified value may be the same value as the first specified value. However, if the second specified value is equal to the first specified value, the control process may be frequently switched before the constant current control process or the constant voltage control process is stably performed. Therefore, it is preferable to set the second specified value to a value larger than the first specified value.

  And the control part 14 stops a constant voltage control process, and starts a constant current control process, when a generated electric power index value becomes more than 2nd regulation value (step S106; YES) (step S101).

  As described above, the power storage device 10 according to the present embodiment is configured as a device that can set a voltage command value during constant voltage control. Therefore, a value in the vicinity of the lower limit value of the operable voltage range of the PCS 32 combined with the power storage device 10 can be set in the power storage device 10 as the voltage command value. Such a value is the minimum value of the voltage command value that does not hinder the operation of the PCS 32, and the smaller voltage command value can more effectively use the generated power when the PV 30 resumes power generation. According to the apparatus 10, it is possible to effectively use the generated power when restarting the power generation of the PV 30 regardless of the model of the PCS 32 to be combined.

<Deformation>
The power storage device 10 described above can be variously modified. For example, many of recent PCSs 32 can specify the lower limit value of the operable voltage range by performing predetermined access via a communication line (lower limit value of the operable voltage range itself, model name, etc.). Can be output. Therefore, the control unit 14 may be a unit that acquires information that can specify the lower limit value of the operable voltage range from the PCS 32 and manages a value determined based on the acquired information as the voltage command value. .

  Instead of steps S102 and S103 of the storage battery control process, a process of waiting (monitoring) that the voltage value of the power line 35 becomes the voltage command value, or the difference between the voltage value of the power line 35 and the voltage command value is a predetermined value. A process of waiting for the following may be performed. Further, after step S103 of the storage battery control process, the process of step S104 may be performed after one of the above two processes is performed.

  A table in which the voltage command value determined from the lower limit value of the operable voltage range of the PCS 32 of each model is stored in the management device 25 or the control unit 14 is stored, and the model name to the management device 25 is stored. An appropriate voltage command value may be set in the control unit 14 by input. Further, the power storage device 10 may be provided with an operation panel for setting a voltage command value, or the power storage device 10 is not a photovoltaic power generation system. Or a load device to be consumed, a power line connecting the DC power generation device and the load device, and a diode provided in the power line to prevent the current from flowing in the direction opposite to the direction in which the current supplied by the DC power generation device flows As a matter of course, it may be modified into a device to be used by being connected to the “power generation system having”.

DESCRIPTION OF SYMBOLS 10 Power storage device 12 DC / DC converter 14 Control part 16 Voltage sensor 17, 18 Current sensor 20 Storage battery 25 Management apparatus 30 Solar cell 32 Power conditioner 15, 35 Power line 42 System 44 Load

Claims (4)

A direct current generator,
A load device for converting or consuming generated power of the DC power generator;
A power line connecting the DC power generator and the load device;
A diode that is provided in the power line and prevents a current from flowing in a direction opposite to a direction in which a current supplied by the DC power generator flows;
A power storage device combined with a power generation system having
A bidirectional DC / DC converter connected to the power line between the load device and the diode and a storage battery;
Constant current control that controls the bidirectional DC / DC converter so that the input / output current value of the bidirectional DC / DC converter matches the current command value, and the voltage value of the power line matches the voltage command value. And a constant voltage control that controls the bidirectional DC / DC converter, and a control unit that changes a control to be executed based on an operating state of the DC power generator;
With
The controller is
A function of managing a set value as the voltage command value in the constant voltage control, and a function of performing a specific process of specifying an index value indicating the magnitude of the generated power of the DC power generator,
The constant current control is started when the index value becomes a specified value or more during execution of the constant voltage control. The specifying process is a process of measuring a magnitude of a current flowing through a portion of the power line that is closer to the DC power generator than a connection point of the bidirectional DC / DC converter, and specifying a measurement result as the index value. The power storage device according to claim 1, wherein: The specific process measures the magnitude of the current flowing through the portion of the power line that is closer to the DC power generation device than the connection point of the bidirectional DC / DC converter, and the voltage value of the power line. The power storage device according to claim 1, wherein the calculated power value is specified as the index value. The load device is a power conditioner that converts electric power generated by the DC power generator,
The control unit acquires information that can specify a lower limit value of the operable voltage range of the power conditioner from the power conditioner, and manages a value determined based on the acquired information as the voltage command value. The power storage device according to any one of claims 1 to 3, wherein the power storage device is provided.

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